Site Navigation

Site Mobile Navigation

Choosing a Sugar Substitute

Tony Cenicola/The New York TimesWatch the sweetener packets to see what readers are saying about sweeteners. Post your own comment below and it may appear in the display.

White. Pink. Blue. Yellow.

On restaurant tables everywhere, the colors of the sweetener packets instantly identify the contents.

Sugar. Saccharin. Aspartame. Sucralose.

Reaching for one to pour into a cup of coffee or tea can sometimes feel like sweetener roulette, with the swirl of confusing, conflicting assertions about which are safe and which are not.

Alissa Kaplan Michaels, for one, never picks pink. She still associates saccharin with cancer. The Food and Drug Administration sought to ban it in the 1970s, because rats that gorged on the chemical developed bladder cancer.

But Congress imposed a moratorium to delay the ban, and the pink packets of Sweet’N Low remained on restaurant tables. The F.D.A. withdrew its ban proposal in 1991, and the warnings were taken off saccharin in 2000 after research showed that it acts differently in rats and humans, and no conclusive increase in cancers was observed in people. Ms. Michaels, a public relations consultant in New York, knows this.

But, she said, “It’s the cancer in the rats. I can’t get that out of my head.”

Although many people have nagging worries about artificial sweeteners, they still use mountains of them — globally, artificial sweeteners are a $1.5-billion-a-year market — to avoid sugar and calories.

The scientific world is also a dichotomy of conclusions. For any of the sweeteners, one can as easily find a study that offers reassuring analysis of safety as one that enumerates potential alarming effects. And it is possible that there could be long-term effects in humans that will become evident only after people have been consuming these sweeteners for decades.

Thus hearsay, mythology and whim guide the choices of many people.

For Ms. Michaels, childhood impressions trump absolution from the F.D.A.

She even carries in her purse packets of her sweetener of choice — sucralose, sold as Splenda — for those occasions when a restaurant has run out of it and she might otherwise confront a choice between pink and blue. “I’m a yellow girl,” she said.

Hundreds of millions of people swallow food and drinks containing artificial sweeteners, and so far, no widespread calamities of health have swept over them.

The F.D.A. places the three main artificial sweeteners available today in the same category: “generally recognized as safe.” The manufacturers cite multitudes of health studies to back up that assertion.

“Based on conventional food safety considerations, the scientific community feels that these have been very adequately tested for any potential toxicities,” said Dr. Gary M. Williams, a professor of pathology at New York Medical College who has been involved in safety reviews of artificial sweeteners, some financed by the manufacturers. “I drink diet soda. I don’t need the calories. My favorite is Fresca, and actually I don’t know what’s in it.”

Part of Dr. Williams’s confidence about safety is that the artificial sweeteners are much more intensely sweet than sugar, so people consume very little of them. Most of the white stuff in the packets is filler, not sweetener. Safety tests in animals looked at doses that were hundreds or thousands of times higher.

But critics — particularly of aspartame, sold as Equal or NutraSweet — say that health problems like headaches, neurological disorders and cancers are occurring, but that regulators are ignoring them.

The Center for Science in the Public Interest, a health advocacy group, slaps an “avoid” label on saccharin and aspartame, but deems sucralose and neotame — a newer, more intense sweetener that is chemically similar to aspartame — to be safe. The center also warns against acesulfame potassium, a less common sweetener that is rarely found in tabletop packets but is combined with other sweeteners in soda and baked goods for a more sugarlike taste. Dr. Williams’s favorite soda, Fresca, for example, is sweetened with acesulfame potassium and aspartame, as are Halls sugar-free cough drops.

For those who turn to stevia, a sweetener derived from a plant, the center gives it a “caution,” because cancer studies were conducted in only one species of lab animals. (“Just because a substance is natural does not mean that it is safe,” the center’s Web site warns.)

A Google search instantly turns up worries that many have about the various sweeteners: Does NutraSweet cause brain cancer? Is Splenda really in the same chemical family as DDT? What about the studies that suggest that artificial sweeteners, despite their dearth of calories, cause weight gain?

Dr. Walter Willett, chairman of the nutrition department at the Harvard School of Public Health, says people can make rational decisions, taking into account risks and uncertainty. “The world is almost never black and white, and we rarely operate with absolute certainty about anything,” he said. “What is most important is to avoid risks that are large and clear, like smoking, obesity and regular consumption of full-strength soda.”

Chemical Concerns

Saccharin, aspartame, sucralose and acesulfame potassium are all molecules that sidle up to certain proteins on the surface of the tongues, tickling neurons that then send a signal that exclaims to the brain: “Sweet!”

The concerns arise over what happens to the artificial sweeteners after they are swallowed.

Consider aspartame. It is essentially two amino acids and a molecular snippet known as a methyl ester. Certain people — about 1 in 25,000 in the United States — have a genetic condition that prevents them from metabolizing one of the amino acids, phenylalanine, and those people are warned away from aspartame.

Many foods contain the same two amino acids, in higher quantities. “It’s not like these are totally foreign, unique substances,” Dr. Willett said. “It doesn’t absolutely prove they’re harmless, but it makes it less likely that there’s a huge surprise waiting for us.”

Others look at the same components of aspartame and see poisons. The two amino acids, while essential for the human diet, cause problems when present out of balance, they say.

The third part, the methyl ester, turns into methanol, which is a poison — though fruit juices have higher concentrations of methanol. Woodrow C. Monte, emeritus professor of nutrition at the University of Arizona, ascribes a host of ills, including multiple sclerosis, to low-level methanol poisoning.

The scientific literature contains findings that can alarm or reassure. A huge study at a cancer research institute in Italy found that rats given aspartame had higher rates of leukemia and lymphomas. The National Cancer Institute in Maryland, however, reviewed health data from a half a million retirees and found no correlation between beverages with aspartame and these cancers.

Meanwhile, sucralose, as the Splenda manufacturer, McNeil Nutritionals, notes in its advertising, starts out as sugar. Chemical reactions excise bits of the sugar molecules and replace them with chlorine atoms. The chlorine effectively camouflages the molecules, and most pass through the body undigested. Hence, zero calories. But some wonder if the chlorine in the sucralose molecules that are absorbed by the body might cause a problem. Michael F. Jacobson, the executive director of the Center for Science in the Public Interest, said the animal testing of sucralose was sufficient for a “safe” rating.

The durability of sucralose molecules gives rise to a different concern. Measurable levels of sucralose have been found in the water supply, raising questions about what happens to various animals when they consume it.

Weighing the Risks

With the questions about artificial sweeteners, some may even wonder: How bad is sugar, anyway?

White sugar offers the purest taste of sweetness. It is natural. But its deleterious health effects are the best established: It can make you fatter.

Research published last year that analyzed health data on more than 100,000 nurses in the United States over nearly a quarter-century found a strong correlation between weight gain and consumption of sugar-sweetened beverages and desserts. There was no weight gain for those who drank beverages with artificial sweeteners.

Obesity leads to numerous health problems — diabetes, heart disease, even cancer. Sugary drinks like soda (fruit juices, too) particularly contribute to weight gain. Usually, if the diet changes, hunger signals adjust to ensure proper nutrition. But the human digestive system seems to overlook liquid calories. Someone who drinks the 140 calories in a 12-ounce can of Coke will not subconsciously eliminate 140 calories elsewhere in the diet.

“Liquid calories seem to be different, and that’s why they’re so problematic,” Dr. Willett said. “Many foods contribute to weight gain, but it does appear that sugar-sweetened beverages are the single, by far, most important problem.” (That reasoning led to Mayor Michael R. Bloomberg’s proposal to ban the sale of large sugary sodas in New York City while allowing mega-size diet sodas.)

Dr. Willett said the long-term safety of the artificial sweeteners remained an open question. “It’s interesting to keep in mind, if you smoke cigarettes, the lung cancer risk doesn’t go up for 30 years,” he said. “And that’s a really powerful carcinogen. A lot of things don’t show up for several decades.”

He also noted that trans fats, used since 1900, did not show up on the radar of doctors’ concerns until the 1990s. “It took us about 90 years to discover it was a big problem,” Dr. Willett said. “It’s a bit sobering how long that took.”

In terms of relative risk — the known dangers of sugar and weight gain versus the uncertainties of artificial sweeteners — “artificially sweetened beverages are much less bad than the full-sugar beverages,” Dr. Willett said. Still, diet sodas are less than optimal. “I view them like a nicotine patch,” he said.

The better solution to protect health: Eat and drink less sweet stuff.

Correction: June 11, 2012An earlier version of this article incorrectly described the composition of aspartame. An aspartame molecule essentially consists of two amino acids and a molecular snippet known as a methyl ester at one end; the methyl ester does not connect the two amino acids.

A version of this article appears in print on 06/12/2012, on page D1 of the NewYork edition with the headline: What We Eat: Doubts by the Teaspoonful.